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Download Chapter 20 – Transport Mechanisms
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Higher Human Biology Unit 2 Transport Mechanisms Conducting System of the Heart 1.The pacemaker or sino-atrial (SA) node initiates electrical impulses which make heart muscle cells contract at a certain rate. 2.A wave of excitation (from the SA node) spreads through the muscle cells of the two atria making them contract (atrial systole). 3.The impulse is picked up by the atrio-ventricular node (AV) node located near the base of the atria. Conducting System of the Heart 4. The impulse passes from the AV node to the bundle of His. This bundle of conducting fibres divides into right and left branches which are continuous with the Purkinjie fibres in the ventricular walls. 5. This causes contraction of the two ventricles. The Heart Blood Pressure • During ventricular systole the pressure of the blood in the aorta rises to a maximum e.g. 120 mmHg • During ventricular diastole it drops to a minimum e.g. 80 mm Hg • Blood pressure is measured with a sphygmomanometer Diagram of Blood Pressure with Time Decreasing Blood Pressure • There is a progressive decrease in pressure as blood travels around the circulatory system dropping almost to zero by the time it reaches the right atrium again. • This is mainly due to peripheral resistance (the resistance to blood flow caused by friction between the blood and the walls of the vessels) Graph of Decrease in Blood Pressure The Lymphatic System • The walls of the tiny lymphatic vessels are porous enabling them to absorb the excess tissue fluid filtered out of the bloodstream in capillary beds. • This fluid is called lymph and is collected by a vast network of lymph capillaries which unite to form larger lymphatic vessels. The Lymphatic System The Lymphatic System • Flow of lymph occurs due to muscle contraction during breathing and moving. • Larger lymph vessels connect to lymphatic ducts which return the lymph fluid back to the circulatory system. • Thus, tissue fluid that was once part of blood plasma is returned to the blood circulatory system. Absorption of Lipids • Each villus in the small intestine possesses a lacteal. • Droplets of lipid enter the lacteals and pass into the lymphatic system where they become a component of lymph. Lymph Nodes • Lymph enters a node by several lymphatic vessels and percolates through the spaces between the nodules. • This enables the macrophages that line these channels an opportunity to remove any microorganisms present in the lymph by phagocytosis. • The lymph leaves by a lymphatic vessel. • N.B. Lymph nodes produce lymphocytes which make anti-bodies. Lymph node structure
